EC:3.4.15.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between experimental magnesium deficiency and blood pressure is complex and still the subject of much debate. The effect of Mg deficiency and blood pressure in Wistar rats receiving a Mg deficient diet (0.080 g/kg) for 40 weeks was examined. Deficient rats, when compared to controls, showed an initial transitory phase of hypotension, followed by normalization of blood pressure and then hypertension beginning after 15 weeks on the deficient diet. During the whole experimental period, heart rate was significantly increased in deficient rats as compared to controls. The fact that hypotension resulting from Mg deficiency of short duration can be inhibited by antihistamines and by indomethacin suggests that various mediators seen during the inflammatory period of Mg deficiency could be involved. Mg deficiency of long duration was accompanied by hypertension. When Mg-deficient rats received the control diet for a period of 3 weeks, Mg supplementation only partially corrected the hypertension. The hypertension was not a consequence of stimulation of the renin-angiotensin system since the plasma renin activity was not modified and ACE activity was reduced. These deficient rats showed a significantly lower vasopressor response to noradrenaline than control rats. Several factors such as increase in collagen, changes in elastin and arterial elasticity, total lipid content, and calcifications may account for the hyporesponsiveness to contractile agonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Magnesium and blood pressure. I. Animal studies. 139 7

Treatment of chronic hypertension with cilazapril, but not hydralazine, attenuates changes in distensibility of cerebral arterioles that occur in stroke-prone spontaneously hypertensive rats (SHRSPs). In this study, effects of antihypertensive treatment on composition of cerebral arterioles was determined in SHRSPs. Cilazapril (45 mg/kg/day), an angiotensin converting enzyme (ACE) inhibitor, or hydralazine (18 mg/kg/day) was begun when rats were 3 months of age. Both cilazapril and hydralazine reduced systolic arterial pressure in SHRSPs (from 199 +/- 6 to 122 +/- 7 mm Hg for cilazapril versus 143 +/- 5 mm Hg for hydralazine [mean +/- SEM]; p less than 0.05). Cerebral arterioles were fixed in vivo, and the cross-sectional area of the vessel wall was measured histologically. In SHRSPs, both cilazapril and hydralazine reduced cross-sectional area of the vessel wall to values obtained in Wistar-Kyoto (WKY) rats. Thus, both cilazapril and hydralazine prevented hypertrophy of cerebral arterioles in SHRSPs. Composition of the arteriolar wall was determined with point counting stereology. Cerebral arterioles in SHRSPs contained significantly more smooth muscle and elastin than in WKY rats (1,294 +/- 157 versus 853 +/- 88 microns2, respectively, for smooth muscle and 148 +/- 13 versus 108 +/- 7 microns2, respectively, for elastin (120 +/- 8 microns2) in cerebral arterioles in SHRSPs was similar to that in WKY rats. Treatment with hydralazine was effective in preventing increases in elastin (128 +/- 14 microns2) and in attenuating increases in smooth muscle (1,008 +/- 18 microns2). The ratio of nondistensible (collagen, basement membrane) to distensible (smooth muscle, elastin, endothelium) components was greater in SHRSPs than in WKY rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of antihypertensive treatment on composition of cerebral arterioles. 183 21

The effects of hypertension and its treatment on the function and structure of arteries have been extensively studied, but no data are yet available on the effect of hypotensive drugs on the large arteries in normotensive rats. Two groups of 11-month-old normotensive breeder male rats were treated for 5 months, one with an angiotensin converting enzyme (ACE) inhibitor (MK-421, 2 mg/kg per day; n = 10) and the other with dihydralazine (15 mg/kg per day; n = 8). A group of 14 rats served as controls. Blood pressure was recorded every 14 days by the tail-cuff method. At the end of the treatment period (5 months), the rats were killed under anaesthesia and the descending thoracic aorta was removed and fixed. The different components of the aorta were assessed by automated morphometric image analysis after specific coloration of elastin (orceine), collagen (sirius red) and nuclei (haematoxylin after periodic acid oxidation. Both the ACE inhibitor and dihydralazine caused similar decreases in systolic blood pressure (SBP) compared with controls. This hypotensive effect was associated with a reduction in medial thickness, from 120 +/- 15 microns in controls to 104 +/- 9 microns in ACE inhibitor-treated and 103 +/- 10 microns in dihydralazine-treated normotensive rats. Elastin density significantly increased in the two treatment groups but the greatest increase was in the dihydralazine-treated group (P less than 0.001). Elastin fibre thickness increased significantly in the dihydralazine-treated group only. Collagen density was not significantly modified by either treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of vasodilatators on the structure of the aorta in normotensive ageing rats. 283 73

The effects of chronic therapy, using an angiotensin converting enzyme (ACE) inhibitor (S9490-3 perindopril, 1 mg/kg), on the mechanical and structural properties of large arteries were studied in two-kidney, one clip (2K, 1C) Goldblatt hypertensive and spontaneously hypertensive rats (SHR) compared with matched normotensive Wistar and Wistar-Kyoto (WKY) animals. The treatment was carried out for 1 month in Goldblatt-hypertensive rats and 3 months in SHR, i.e. for 1 month after blood pressure was normalized. At the end of the treatment period the passive mechanical properties of the isolated carotid artery were measured in situ. Carotid compliance was calculated from the pressure-volume relationship between 50 and 250 mmHg. Morphological parameters of the aortic wall, including medial thickness, nucleus density and elastin and collagen content, were recorded by an automated morphometric system. Renal and essential hypertension were associated with a shift of the passive pressure-volume relationship in the carotid, corresponding to a decrease in arterial compliance. The passive mechanical properties of the carotid were normalized by ACE inhibitor treatment in renovascular hypertensive rats but remained unchanged in chronically treated SHR. The ACE inhibitor completely reversed the medial hypertrophy in Goldblatt-hypertensive rats but the reversal of medial hypertrophy was incomplete in SHR. The elastin to collagen ratio in the aortic media was significantly increased by 3 months of treatment with the ACE inhibitor in the SHR and WKY groups but remained unchanged in the Goldblatt-hypertensive and Wistar rats treated for 1 month.
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PMID:Arterial effects of angiotensin converting enzyme inhibition in renovascular and spontaneously hypertensive rats. 322 86

The extracellular matrix (ECM) is composed of various collagens, glycosaminoglycans, and elastin bathed by a tissue fluid found throughout the interstitial space. It is this substratum in which fibroblasts and macrophages normally reside, where fibroblast phenotypic transformation occurs, and into which inflammatory cells migrate when called upon during tissue repair. Many diseases, expressed in an organ-specific manner, require organ-specific ECM remodeling. Regulation of fibrillary type I collagen synthesis, whose disproportionate (relative to degradation) accumulation is characteristic of the tissue fibrosis that adversely alters organ function, is therefore of considerable importance. Emerging evidence implicates angiotensin converting enzyme (ACE), found in fibroblast-like cells, and ACE-related peptides, angiotensin II and bradykinin, in serving important regulatory functions that influence wound healing and thereby ECM structure in health and disease. The heart and its collagen matrix have been targeted for discussion in this brief review.
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PMID:Local regulation of extracellular matrix structure. 777 69

1. Stroke-prone spontaneously hypertensive rats (SHRSP) were fed a diet with fish meal as the protein source (fish diet) during the progressive stage of hypertension, and its effects on the activity of angiotensin I-converting enzyme (ACE) in serum and vascular tissues and on the aortic elastin content were studied. The effects of the antihypertensive drugs captopril and hydralazine were also studied. 2. Stroke-prone spontaneously hypertensive rats fed the fish diet showed a distinctly lower level (P < 0.05) of serum ACE activity than the control group fed a commercial stock chow. 3. ACE activity was enhanced in the SHRSP which was administered with captopril. 4. Serum ACE activity was similar in the SHRSP receiving the hydralazine treatment and the control group. 5. The thoracic aorta ACE activity was lowered more (P < 0.05) in the fish diet group and the captopril-treated group than in the control group. In the hydralazine-treated group however, the activity was similar to the control group. 6. The ratio of aorta weight to bodyweight was significantly lower (P < 0.05) in the fish diet group and the captopril-treated group than in the control group, but there was no difference in the hydralazine group. Higher levels of aortic elastin were observed in the drug-treated groups (P < 0.05). 7. No differences were seen between the fish diet and captopril-treated groups by electron-microscopy. 8. The results suggest that suppression of hypertrophy and ameliorations of reduction in elasticity of the vascular wall in the SHRSP fed a fish diet were due to inhibition of vascular tissue ACE activity.
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PMID:The vascular tissue angiotensin I-converting enzyme activity and aortic elastin content in stroke-prone spontaneously hypertensive rats fed fish diet. 798 75

The consequences of hypertension and aging on cardiovascular structure and function are reputed to be similar, suggesting that blood pressure plays a role in the aging process. However, the exact relationship between aging, blood pressure, and the arterial structure-function relationship has not been demonstrated. To test the effects of aging, renin-angiotensin system, and pressure on the arterial wall, 20 normotensive male WAG/Rij rats were killed at 6, 12, 24, and 30 mo of age and compared with similar groups treated with an angiotensin (ANG)-converting enzyme inhibitor (ACEI), perindopril. Arterial function was determined by a systemic hemodynamic study and by in situ measurement of carotid compliance. Arterial wall structure was determined by histomorphometric and biochemical methods. Aging did not significantly modify blood pressure, but ACE inhibition decreased blood pressure significantly from 6 to 30 mo. Plasma renin activity decreased with age and increased with ACEI. Plasma atrial natriuretic factor increased with age and was significantly decreased with ACEI. Absolute and relative left ventricular weight increased with age, and ACEI delayed these increases. Arterial wall stiffness increased with age, as shown by a significant decrease in systemic and local arterial compliance and by an increase in aortic characteristic impedance. The increase in carotid wall compliance after poisoning of smooth muscle contractile function (KCN) was greater in young (6- and 12-mo old) than in old (24- and 30-mo old) rats. Chronic ACEI treatment increased basal carotid compliance values slightly and did not change KCN carotid compliance. The aortic and carotid luminal size increased regularly with age. Aging was associated without any change in absolute elastin content. In contrast, collagen content increased with aging. Aging was also associated with an increase in medial thickness. Medial thickening was mainly due to smooth muscle hypertrophy. Aging was associated with intimal proliferation, which became progressively thicker and collagen rich. ACEI treatment did not prevent aortic lumen enlargement but significantly postponed the increase in medial and intimal thickening. Biochemical determinations of the aortic wall components confirmed the morphometric data. In conclusion, the age-dependent large artery enlargement and stiffening were observed both in normotensive rats and in those rats whose blood pressure was lowered by ACEI. This suggests that aging and blood pressure affect arterial wall structure and function by different mechanisms.
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PMID:Effect of chronic ANG I-converting enzyme inhibition on aging processes. II. Large arteries. 804 14

Hypertension results in increased thickness and stiffness of large artery walls. The goal of our study was to assess the respective roles of humoral factors such as Ang II, endothelin and blood pressure in these aortic modifications. For this purpose, uninephrectomized rats received DOCA and high salt diet, and when hypertension was installed, they were treated for 5 weeks with either a long-acting calcium antagonist, mibefradil (30 mg/kg/day), an ACE inhibitor, enalapril (3 mg/kg/day), or a mixed ETA and ETB endothelin receptor antagonist, bosentan (100 mg/kg/day). A group of hypertensive rats was left untreated and a sham-operated group of normotensive rats was used for control. At the end of treatment, aortic medial thickness and elastin as well as collagen were evaluated by quantitative morphometry. DOCA-salt hypertensive rats exhibited a marked increase in medial thickness associated with no change in absolute content in extracellular matrix. Elastin relative density decreased in DOCA rats. Enalapril had no effect on arterial pressure. Bosentan decreased slightly (by 12 mm Hg), but not significantly, blood pressure. None of these drugs had an effect on medial thickness suggesting that in DOCA hypertensive rats neither Ang II nor endothelin play a significant role in the remodeling of the aorta. In contrast, mibefradil almost normalized arterial pressure, prevented medial hypertrophy and increased elastin density. Further studies are required in order to assess if this effect is directly linked to the blood pressure decrease or to another mechanism related to the calcium antagonistic property of mibefradil.
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PMID:Respective role of humoral factors and blood pressure in aortic remodeling of DOCA hypertensive rats. 923 40

Cysteine proteinases are widely distributed among living organisms. According to the most recent classifications (Rawlings and Barrett, 1993, 1994), they can be subdivided on the basis of sequence homology into 14 or even 20 different families, the most important being the papain and the calpain families. The papain-like cysteine proteinases are the most abundant among the cysteine proteinases. The family consists of papain and related plant proteinases such as chymopapain, caricain, bromelain, actinidin, ficin, and aleurain, and the lysosomal cathepsins B, H, L, S, C and K. Most of these enzymes are relatively small proteins with Mr values in the range 20000-35000 (reviewed in Brocklehurst et al., 1987; Polgar, 1989; Rawlings and Barrett, 1994; Berti and Storer, 1995), with the exception of cathepsin C, which is an oligomeric enzyme with Mr approximately 200000 (Metrione et al., 1970; Dolenc et al., 1995). A number of cysteine proteinases are located within lysosomes. Four of them, cathepsins B, C, H and L, are ubiquitous in lysosomes of animals, whereas cathepsin S has a more restricted localisation (Barrett and Kirschke, 1981; Kirschke and Wiederanders, 1994). The enzymes, except cathepsin C, are endopeptidases (reviewed in Kirschke et al., 1995), although cathepsin B was found also to be a dipeptidyl carboxypeptidase (Aronson and Barrett, 1978) and cathepsin H also an aminopeptidase (Koga et al., 1992). Cathepsin C is a dipeptidyl aminopeptidase, but at higher pH it exhibits also dipeptidyl transferase activity (reviewed in Kirschke et al., 1995). Among the lysosomal cysteine proteinases, cathepsin L was found to be the most active in degradation of protein substrates, such as collagen, elastin and azocasein (Barrett and Kirschke, 1981; Maciewicz et al., 1987; Mason et al., 1989), arid cathepsin B the most abundant (Kirschke and Barrett, 1981). All the enzymes are optimally active at slightly acidic pH, although their pH optima for degradation of synthetic substrates vary from 5.5 for cathepsin L to 6.8 for cathepsin H (reviewed in Kirschke et al., 1995). Several other lysosomal cysteine proteinases, such as cathepsins N, T and K, are known, although their properties are less well characterised (reviewed in Kirschke et al., 1995). In particular cathepsin K has attracted recent interest (Bromme et al., 1996; Shi et al., 1995; Bossard et al., 1996; Drake et al., 1996) and was found to be expressed specifically in osteoclasts (Drake et al., 1996) with properties similar to cathepsin L (Bossard et al., 1996).
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PMID:Structural and functional aspects of papain-like cysteine proteinases and their protein inhibitors. 916 64

Hyperhomocysteinemia is a risk factor for arterial diseases, and the deterioration of the arterial elastic structures is one of the possible mechanisms underlying this epidemiological association. The aim of this paper is to quantitatively characterize such structural alterations and to explore their causes in a previous model of dietary induced mild hyperhomocysteinemia in minipigs. After four months, both a morphodensitometrical analysis of the elastic structure and a biochemical analysis of elastin and elastase activities were performed on the infrarenal abdominal aorta (IRAA) and the proximal left interventricular coronary artery (LIVCA) of control (C), hyperhomocysteinemic (H) and captopril-hydrochlorothiazide (Cp-Htz, 25 + 12.5 mg/d)-treated (H+/-Cp) minipigs (n = 8/group). Hyperhomocysteinemia was found to induce an increase in parietal elastolytic metalloproteinase activities. It resulted in opening and enlargement of fenestrae through the medial elastic laminae and in a decrease in medial elastin content (p < 10(-3)), expressed as well as volume density (%) as weight concentration (microg elastin/mg dry tissue). The thickness of the media and its basic lamellar organization was unchanged. The reduction in volume density was more dramatic in LIVCA (H: 4.7 +/- 0.9 vs C: 8.8 +/- 2.4), where it was evenly distributed within the media, than in IRAA (H: 6.7 +/- 1.1 vs C: 9.3 +/- 1.2), where the deep medial layers were less affected. Cp-Htz partly prevented the hyperhomocysteinemia-induced reduction of the medial elastin content in LIVCA (5.7 +/- 1.2) and IRAA (7.9 +/- 1.4). This effect, occurring in the subintimal layers of the media in both arteries but not in the deeper layers, resulted in a less beneficial effect in LIVCA than in IRAA. This result parallels the moderate beneficial therapeutic effect of ACE inhibitors against coronary atherosclerosis in humans. This paper reports for the first time a quantitative analysis of the arterial site-dependent deterioration of the elastic structure caused by mild hyperhomocysteinemia and the involvement of metalloproteinases in this process. These results confirm that the plaque-independent damage to elastic structure previously described in hyperhomocysteinemic-atherosclerotic minipigs was mainly due to homocysteine. This highlights that the metalloproteinase-related elastolysis and the subsequent structural deterioration is one of the major events underlying the epidemiological association between mild hyperhomocysteinemia and arterial diseases.
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PMID:Hyperhomocysteinemia induces elastolysis in minipig arteries: structural consequences, arterial site specificity and effect of captopril-hydrochlorothiazide. 992 50

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